LPCXpresso LPC1769 Development Board with LPC-Link

DescriptionIf you want a fast, modern MCU that has just about everything covered for you, the ARM Cortex-M3 based LPC1769 is a pretty reliable choice! 120MHz ARM Cortex-M3 MCU with 512 kB flash and 64 kB SRAM Full-Speed (12 Mb/s) USB 2.0 with on-chip PHY with support for USB device, host and OTG Ethernet support (with dedicated DMA for high speed memory transfers) Four UARTs,...

Description

If you want a fast, modern MCU that has just about everything covered for you, the ARM Cortex-M3 based LPC1769 is a pretty reliable choice!

120MHz ARM Cortex-M3 MCU with 512 kB flash and 64 kB SRAM

Full-Speed (12 Mb/s) USB 2.0 with on-chip PHY with support for USB device, host and OTG

Ethernet support (with dedicated DMA for high speed memory transfers)

Four UARTs, CAN 2.0, Three SPI buses, Three I2C buses, and I2S for audio

12-bit ADC and 10-bit DAC

Four HW timers, including one motor control PWM timer with support for three-phase motor control

Quadrature encoder interface

RTC with a separate power domain to keep track of the time even when the board is powered down

With a modern, highly efficient Cortex-M3 core, the LPC1769 packs a lot of punch (single cycle 32-bit multiply, etc.), and has all the peripherals you're likely to need to get just about any sensor hooked up to it, get some motors whirling, and have it talking to the outside world via USB, Ethernet, CAN or UART.

While the LPC1769 doesn't have the super-handy USB bootloader found on it's newer, smaller cousin the LPC1347, it does still have a UART-based bootloader built into the ROM memory, so it's almost impossible to brick the MCU.

The LPCXpresso board includes an on-board SWD/JTAG debugger than can be used to debug your LPC1769 project in NXP's free LPCXpresso IDE (free for up to 128KB), but you can also debug the board with any other SWD or JTAG debugger using the optional SWD connector, or program the boards via the free Flash Magic tool or an open source utility like lpc2isp.

The LPC1769 isn't the most beginner friendly devices out there, but for those of us who have microcontroller experience and want to step it up, they are an excellent introduction to proper embedded design and development. Given the popularity of these chips there are quite a few resources out there for them, such as ports of popular open source RTOSes like FreeRTOS, and stacks like LWIP or uIP.

Best of all, this is the same MCU that's used on most of the mbed boards out there, and the mbed source code has recently been republished under an open source license, so you have a large pool of proven, theyll-thought-out code to take advantage of trying to build something amazing with this kitchen-sink of an MCU!